A. Hedgpeth
University of California, Los Angeles
5 Papers
A. Hedgpeth is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Biomass (ecology) & Climate change. The author has an hindex of 1, co-authored 1 publications.
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Papers
Expert assessment of future vulnerability of the global peatland carbon sink
Julie Loisel,Angela V. Gallego-Sala,Matthew J. Amesbury,Matthew J. Amesbury,Gabriel Magnan,Gusti Z. Anshari,David W. Beilman,J. C. Benavides,Jerome Blewett,Philip Camill,Dan J. Charman,Sakonvan Chawchai,A. Hedgpeth,Thomas Kleinen,Atte Korhola,David Large,Claudia A Mansilla,Jurek Müller,S. van Bellen,J. B. West,Zicheng Yu,Zicheng Yu,Jill L. Bubier,Michelle Garneau,Tim R. Moore,A. B. K. Sannel,Susan Page,Minna Väliranta,Michel Bechtold,Victor Brovkin,Lydia E.S. Cole,Jeffrey P. Chanton,Torben R. Christensen,M. A. Davies,F. De Vleeschouwer,Sarah A. Finkelstein,Steve Frolking,Mariusz Gałka,Laure Gandois,N. T. Girkin,Lorna I. Harris,Andreas Heinemeyer,Alison M. Hoyt,Alison M. Hoyt,Miriam C. Jones,Fortunat Joos,Sari Juutinen,Karl Kaiser,Terri Lacourse,Mariusz Lamentowicz,Tuula Larmola,Jens Leifeld,Annalea Lohila,Annalea Lohila,Alice M. Milner,Kari Minkkinen,Patrick Moss,Bernhard David A Naafs,Jonathan E. Nichols,Jonathan A. O'Donnell,Richard J. Payne,Michael Philben,Sanna Piilo,Anne Quillet,Amila Sandaruwan Ratnayake,Thomas P. Roland,Sofie Sjögersten,Oliver Sonnentag,Graeme T. Swindles,W. Swinnen,Julie Talbot,Claire C. Treat,A. C. Valach,Jianghua Wu +73 more
TL;DR: In this article, the authors define and quantify the leading drivers of change that have impacted peatland carbon stocks during the Holocene and predict their effect during this century and in the far future.
Effects of experimental and seasonal drying on soil microbial biomass and nutrient cycling in four lowland tropical forests
Lee H. Dietterich,Nicholas J. Bouskill,Biancolini Castro,Stephany S. Chacon,Lily Colburn,Amanda L. Cordeiro,Edwin García,Adonis Antonio Gordon,Eugenio Gordon,A. Hedgpeth,Weronika Konwent,G. Oppler,Jacqueline Reu,Carley Tsiames,Eric Valdes,Anneke Zeko,Daniela F. Cusack +16 more
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High methane concentrations in tidal salt marsh soils: Where does the methane go?
Margaret Capooci,Angelia L. Seyfferth,Craig Tobias,Andrew S. Wozniak,A. Hedgpeth,Malique Bowen,J. F. Biddle,Karis J. McFarlane,Rodrigo Vargas +8 more
TL;DR: High methane concentrations in salt marsh soils. The majority of methane production occurs via methylotrophic methanogenesis, and the majority of methane is exported from the soil to adjacent tidal creeks.
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Experimental warming and drying increase older carbon contributions to soil respiration in lowland tropical forests
Karis J. McFarlane,Daniela F. Cusack,Lee H. Dietterich,A. Hedgpeth,Kari M. Finstad,Andrew T. Nottingham +5 more
TL;DR: Experimental warming and drying in tropical forests increase soil carbon vulnerability by accelerating older carbon degradation, suppressing new carbon inputs, and altering carbon balance, exacerbating soil carbon losses under climate change.
From the top: surface-derived carbon fuels greenhouse gas production at depth in a peatland
A. Hedgpeth,Alison M. Hoyt,Kyle C. Cavanaugh,Karis J. McFarlane,Daniela F. Cusack +4 more